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The soil microbial necromass carbon and the carbon pool stability drive a stronge priming effect following vegetation restoration

土壤碳 环境科学 植被(病理学) 启动(农业) 矿化(土壤科学) 环境化学 化学 生态学 土壤水分 土壤科学 农学 生物 苗木 医学 病理
作者
Ming Hao,Guifang Wang,Qinghui Yu,Yuan He,Zixu Zhang,Xingjian Dun,Peng Gao
出处
期刊:Journal of Environmental Management [Elsevier BV]
卷期号:351: 119859-119859 被引量:5
标识
DOI:10.1016/j.jenvman.2023.119859
摘要

The priming effect stands as a critical factor influencing the balance of soil organic carbon (SOC). Following vegetation restoration, the carbon (C) pool stability in Platycladus orientalis forests (PO) varies, and the priming effect resulting from exogenous C addition also differs significantly. Here, we selected PO with restoration ages of 10, 15, and 30 years in the rocky mountainous area in northern China and conducted measurements of soil properties, microbial communities, microbial necromass C (MNC), SOC fractions, and the priming effect characteristics to explore the main influencing factors of the priming effect, especially the microbiological mechanisms. Our results showed that the ratio of mineral-associated organic C to particulate organic C increased. The characteristics of the priming effect showed the same pattern, and there was a significant positive correlation between the C pool stability and the priming effect. The diversity of the fungal communities increased with increasing vegetation restoration age, and the content and proportion of fungal necromass C (FNC) also increased synchronously, reaching the maximum value in the soil of PO that had been restored for 30 years. In addition, the soil water content and total nitrogen indirectly affected the priming effect by influencing the microbial communities. In summary, the results suggested that vegetation restoration can enhance the C pool stability by promoting an increase in soil FNC, thereby producing a positive priming effect. This can help deepen our understanding of the SOC mineralization changes induced by fresh C input following vegetation restoration and provides a theoretical basis for better explaining the C cycle between soil and atmosphere under the vegetation restoration models in the future.

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